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HOME
ABOUT US
Introduction
Directors
Organization Chart
Societies
RESEARCH
Facilities
Research Divisions
SCIENTISTS
Faculty
INT'L COOPERATION
International Platforms
International Partners
EDUCATION
Admission
Regulation
Download
CONTACT US
A new paradigm for enhanced sulfate anisotropy proposed by XTIPC
Research Progress: Melt Viscosity Prediction and Fiber Formation of Basalt Ores
Research Progress in the Design of Novel Deep-Ultraviolet Birefringent Materials through Weak Interaction Modulate Functional Module Ordering.
Research Progress
Progress in High-Throughput Screening of Novel Birefringent Materials in Unknown Chemical Space
A new paradigm for enhanced sulfate anisotropy proposed by XTIPC
Research Progress: Melt Viscosity Prediction and Fiber Formation of Basalt Ores
Research Progress in the Design of Novel Deep-Ultraviolet Birefringent Materials through Weak Interaction Modulate Functional Module Ordering.
NEWS
75 Years: A Pioneering Journey of Science and Technology
11 XTIPC researchers named among world’s top 2% scientists
Upcoming Events
05
Jun
Second Call for Participation: The 8th International Symposium on Edible & Medicinal Plant Resources and the Bioactive Ingredients
12
Mar
The 8th International Symposium on Edible & Medicinal Plant Resources and the Bioactive Ingredients (ISEPR2024) – the First Round Announcement
22
May
2023 China-Russia International Symposium on Crystallography of Materials
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(86) 991-3838931
lhskj@ms.xjb.ac.cn
(86)991-3838957
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